seanstickle

Calculating the Time to Evaporate of Small Black Holes

Earlier today, Uncle Bob Martin twittered “Micron sized black hole will evaporate in 200 billion years and has the mass of a cubic kilometer of water.”

Curious about the calculation, I looked up the formula in Wikipedia’s article on Hawking radiation:

Next, to fill in the variables.

Gravitational constant is: 6.67428e-11 m3 kg-1 s-2
Dirac’s constant is: 1.054571e-34 m2 kg s-1
Speed of light is: 2.99792458e+8 m s-1
Black hole mass (1 cubic kilometer of water) is: 1e+12 kg.

Calculating in my trusty irb:

irb(main):001:0> tev = (5120 * Math::PI * 6.67428e-11**2 * 1e+12**3) / (1.054571e-34 * 2.99792458e+8**4)
=> 8.41143401030793e+19
irb(main):002:0> tev_in_years = tev / (60*60*24*365)
=> 2667248227520.27


2.66725 trillion years.

Note 1: I had tweeted earlier that it would take 1e+49 years, because I had screwed up the cubing of the mass of the black hole.

Note 2: This black hole would radiate at about 356 megawatts, a little less than an average US nuclear power plant.

Endings and Beginnings

I quit my job at CustomInk. As of Friday, the 26th of June, I no longer work there. Nice place, good people. Just not a good fit for me. I needed more hands-on involvement, and the position was too removed from the action.

Now, with the support of my wife, I am out on my own. I have some ideas for projects, a couple of business ideas, and a smattering of dreams to chase after. Maybe it’ll end up with me working for another company, I’m not sure. But there is gold in the hills, and I have a shovel.